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As a beginner exercise, I've implemented the following function to find the n-th element in a list:

elem_at (h:_) 0 = h  
elem_at (_:t) n = elem_at t (n-1)  
elem_at _ _     = error "Index out of bounds"

However, if I call: elem_at [1,2,3,4] 5, is it correct that it will return "Index out of bounds" only after having traversed the whole list, so that the last line matches the pattern _ _ with [] 1? More generally, if the list were big wouldn't that be a performance issue? Can ghc somehow optimize that situation?

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2 Answers 2

up vote 4 down vote accepted

In fact, this is precisely the canonical way to index a list, almost. You need to add in checking for negative numbers

elem_at xs n | n < 0 =  error "elem_at: negative index"

And you could add a specific match for the empty list:

elem_at [] _         =  error "elem_at: index too large"

And the base and inductive case:

elem_at (x:_)  0         =  x
elem_at (_:xs) n         =  elem_at xs (n-1)

and you've got the Prelude definition of list indexing, the (!!) operator.

A slightly more efficient version can be yielded via the worker wrapper, floating the index test to the top level.

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Thanks! That makes sense. But wait... to math [] _, starting with [1,2,3,4] and 5, I have to use the inductive case 4 times, right? –  Frank May 18 '11 at 22:46
    
If n is too large, you'll hit the base case of elem_at [] _. This is good because if you compare the n to the length, you end up traversing the list once to get the length and then again to find the element. –  Tim Perry May 18 '11 at 22:47
    
@Tim you are right. Supplementary question: does Haskell store the length of a list internally so that querying it could be real fast? –  Frank May 18 '11 at 22:49
    
Nope. You could write your own list that did, but then you couldn't use the built-in functions that operate on lists. There has been some talk of making the list type into a typeclass so it could be generalized, but I don't think anything has been done on that. Besides, @Don Stewart would be better at continuing that line of thought so I leave off here. –  Tim Perry May 18 '11 at 22:50
    
@Frank: no, lists are the simple recursive type, data [a] = [] | a : [a]. That's it. If your algorithm depends on indexing or length-taking, consider using finger trees or vectors (Data.Sequence or Data.Vector). –  Don Stewart May 18 '11 at 22:51

I believe that the haskell implementation is about as efficient as traversing a singly-linked list in any language. If the data were stored in a different structure, then the you could answer the question without traversing the list.

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My "issue" is that I like the code above very much, because it's so concise. It would be ideal if I could write nothing more, and still have very efficient code at runtime. I have written another version that triggers the error on out of bounds faster (I think), but it's not as elegant. –  Frank May 18 '11 at 22:42
    
If you have a static list and you just want quick look-ups, you might get an efficiency improvement by converting your list to an array. haskell.org/haskellwiki/Modern_array_libraries –  Tim Perry May 18 '11 at 22:45

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